CN102186965B - Brewing process - Google Patents
Brewing process Download PDFInfo
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- CN102186965B CN102186965B CN200980140696.5A CN200980140696A CN102186965B CN 102186965 B CN102186965 B CN 102186965B CN 200980140696 A CN200980140696 A CN 200980140696A CN 102186965 B CN102186965 B CN 102186965B
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- pullulanase
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- 238000000034 method Methods 0.000 claims abstract description 73
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12C—BEER; PREPARATION OF BEER BY FERMENTATION; PREPARATION OF MALT FOR MAKING BEER; PREPARATION OF HOPS FOR MAKING BEER
- C12C5/00—Other raw materials for the preparation of beer
- C12C5/004—Enzymes
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12C—BEER; PREPARATION OF BEER BY FERMENTATION; PREPARATION OF MALT FOR MAKING BEER; PREPARATION OF HOPS FOR MAKING BEER
- C12C7/00—Preparation of wort
- C12C7/04—Preparation or treatment of the mash
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Y—ENZYMES
- C12Y302/00—Hydrolases acting on glycosyl compounds, i.e. glycosylases (3.2)
- C12Y302/01—Glycosidases, i.e. enzymes hydrolysing O- and S-glycosyl compounds (3.2.1)
- C12Y302/01041—Pullulanase (3.2.1.41)
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Y—ENZYMES
- C12Y302/00—Hydrolases acting on glycosyl compounds, i.e. glycosylases (3.2)
- C12Y302/01—Glycosidases, i.e. enzymes hydrolysing O- and S-glycosyl compounds (3.2.1)
- C12Y302/01068—Isoamylase (3.2.1.68)
Landscapes
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Engineering & Computer Science (AREA)
- Health & Medical Sciences (AREA)
- Biochemistry (AREA)
- Bioinformatics & Cheminformatics (AREA)
- General Engineering & Computer Science (AREA)
- General Health & Medical Sciences (AREA)
- Genetics & Genomics (AREA)
- Life Sciences & Earth Sciences (AREA)
- Wood Science & Technology (AREA)
- Zoology (AREA)
- Food Science & Technology (AREA)
- Distillation Of Fermentation Liquor, Processing Of Alcohols, Vinegar And Beer (AREA)
- Preparation Of Compounds By Using Micro-Organisms (AREA)
Abstract
A process for producing a wort comprising the steps of mixing a grist with water, adding a debranching enzyme, wherein said debranching enzyme has above 60% enzyme activity, at 64 DEG C, for a period of 10 minutes, at pH 5.0, resting said mixture at 58-68 DEG C for a period of 10-40 minutes, resting said mixture at 72-80 DEG C, for a period of 5-20 minutes, and separating the wort from solid components.
Description
Technical field
The present invention relates to for the production of wort (Brewer ' s wort) with for generation of the method for the saccharifying that comprises shortening (mashing regime) of beer.
Background technology
Brewing method is known in the art, and generally includes the step of malting (malting), saccharification (mashing) and fermentation.Saccharification is that the starch from germination grain and solid adjuvant material is changed into and can be fermented and not fermentable sugar, thereby produces the method for the wort with required composition.Method for saccharifying carries out for some time in differing temps, to activate, is responsible for degrade proteins and sugared endogenous enzyme.Up to now, the most important variation bringing in saccharification is that starch molecule is changed into fermentable sugars.Yet, bring the enzyme of this conversion to there is different optimum temperutures, and wine with dregs (mash) must be heated to the differing temps of described enzyme effectiveness the best.
To enzyme require certain hour interval described in fixed temperature, carrying out appropriate reaction, so-called for example enzyme of this time standing (enzyme rest) (saccharification is standing).These enzymes are standing to expend time in, and is tending towards causing bottleneck in brewing method, thereby for maximum efficiency and cost-benefit method for saccharifying, enzyme time of repose should be short as much as possible.
Yet the effect of starch degradation depends on for example standing time and the temperature of enzyme in saccharification, level and the activity of starch degrading enzyme in starch itself (type, Fructus Hordei Germinatus degree etc.) and wine with dregs.When starch reaches gelatinization point, when starch is complete come-at-able temperature for amylase, in the time of common about 58-62 ℃, Starch Hydrolysis progress is very fast.In this temperature, α-amylase is relatively stable, and beta-amylase and debranching factor are as Pullulanase thermally labile start inactivation the most.Therefore, method for saccharifying generally adopts controlled progressively temperature to increase, and wherein each step is conducive to a kind of enzyme effect with respect to other enzyme, final degrade proteins, cell walls and starch.Therefore,, in brewageing, saccharification is very time-consuming step.Most of saccharification methods expend at least 90 minutes, and are included in about 45-52 ℃, approximately 62 ℃ and approximately 72 ℃ standing.
In the combined effect wort of temperature and the standing length of enzyme, fermentable sugars is on the ratio of fermentable sugars not and therefore affect the fermentability of wort and the final taste of fermented drink and fragrance (aroma).
WO2005121305 has described method for saccharifying, and the combination of wherein adding enzyme α-amylase, glucoamylase and isoamylase be take to produce and can be fermented as the wort of low-sugar drink.
WO2007144393 has described the wort that is added into wine with dregs for generation of Pullulanase wherein.
Gregor etc. (Journal of Cereal Science, Vol.29,161-169 page, 1999) have described the interaction of starch saccharase α-amylase, beta-amylase and limit dextrinase in method for saccharifying.
Odibo and Obi1989, Mircen Journal, 5 (2) 187-192 disclose from the method for Chinese sorghum preparation of malt wine with dregs, comprise and add thermostability microorganism Pullulanase.Total saccharification time is 126 minutes.
The demand of existence to the method for improving, for efficiency and cost interests, saccharification time is short as much as possible thus.
Summary of the invention
The inventor finds that the enzyme that can shorten or eliminate in saccharifying is standing by adding thermostability debranching factor surprisingly, thereby it is obviously faster to make to produce the method for wort.Therefore, the invention provides a kind of method for generation of wort, comprise the steps:
A) cereal (grist) is mixed with water,
B) add debranching factor, wherein said debranching factor is at 64 ℃, pH5.0, and the time of 10 minutes has more than 60% enzymic activity,
C) time at 58-68 ℃ of standing 10-40 minute by described mixture,
D) time at 72-80 ℃ of standing 5-20 minute by described mixture, and
E) wort is separated with solid ingredient.
The invention still further relates to the wort or the beer that by the inventive method, are produced.The invention still further relates to the purposes of enzyme according to the present invention in any method of the present invention.
Except shortening saccharifying, enzyme of the present invention also can be added into for generation of having in the method for wort of high fermentable sugars amount.
Therefore the invention still further relates to the method that produces wort, comprise the steps:
A) cereal is mixed with water, wherein said cereal comprises at least 50% Fructus Hordei Germinatus,
B) add debranching factor, wherein said debranching factor is at 64 ℃, pH5.0, the time of 10 minutes has more than 60% enzymic activity, and by described mixture 58-68 ℃ standing,
C) temperature is increased to 72-80 ℃, and by described mixture 72-80 ℃ standing, and
It is d) wort is separated with solid ingredient,
Wherein in wort the amount of fermentable sugars more than 75% of soluble-carbohydrate.
The invention still further relates to the wort of preparing from 50-100% Fructus Hordei Germinatus and the amyloid auxiliary material of 0-50% (adjunct), wherein the amount of fermentable sugars is higher than 75% of soluble-carbohydrate, or the wort being produced by method of the present invention, wherein in wort, the amount of fermentable sugars is soluble-carbohydrate at least 75%.
Definition
In whole the disclosure, the general a plurality of terms understood of those of ordinary skills have been used.Some terms are more broadly described in " detailed Description Of The Invention ".Provide the brief definition of some frequent terms that use below.
In the present context, " enzyme is standing " or be for some time or the timed interval referred to as " standing " or " placement ", wherein the mixture of cereal and water and optional auxiliary material is remained on to certain temperature, for enzyme (endogenous enzyme and optional exogenous enzyme), act on starch.
Term " cereal " is interpreted as and contains sugared material as used in this article, its basis that is beer production, for example, barley germ and auxiliary material.
Term " Fructus Hordei Germinatus " is interpreted as to cereal grains (the malted cereal grain), particularly barley of any germination.
Term " wort " is interpreted as and in saccharifying, extracts the unfermentable liquid efflunent (liquor run-off) after cereal.
Term " beer " is interpreted as to the wort of fermentation.
Term " identity " is the dependency between two aminoacid sequences or between two nucleotide sequences.For the present invention, identity degree between two aminoacid sequences is to use as EMBOSS routine package (EMBOSS:The European Molecular Biology Open Software Suite, Rice etc., 2000, Trends in Genetics16:276-277) the Needleman-Wunsch algorithm (Needleman and the Wunsch that in the Needle program of (version of preferred version 3.0.0 or renewal), carry out, 1970, J.Mol.Biol.48:443-453) determine.The optional parameter using is: it is 10 that breach produces point penalty, and it is 0.5 that breach extends point penalty, and EBLOSUM62 (the EMBOSS version of BLOSUM62) substitution matrix.By the Needle output (acquisitions of uses-nobrief option) that is labeled as " the longest identity " as per-cent identity and be calculating as follows:
(identical residue x100)/(the breach sum in the length-comparison of comparison)
For the present invention, identity degree between two deoxyribonucleotide sequences is used as EMBOSS routine package (EMBOSS:The European Molecular Biology Open SoftwareSuite, Rice etc., 2000, on seeing) the Needleman-Wunsch algorithm (Needleman and the Wunsch that carry out in the Needle program of (version of preferred version 3.0.0 or renewal), 1970, on seeing) determine.The optional parameter using is: it is 10 that breach produces point penalty, and it is 0.5 that breach extends point penalty, and EDNAFULL (the EMBOSS version of NCBI NUC4.4) substitution matrix.By the Needle output (acquisitions of uses-nobrief option) that is labeled as " the longest identity " as per-cent identity and be calculating as follows:
(identical deoxyribonucleotide x100)/(the breach sum in the length-comparison of comparison)
Detailed Description Of The Invention
In brewing method, saccharification condition, the time that acts on starch (for example enzyme is standing) as temperature, pH and enzyme amount and these enzymes has tremendous influence to fermentation results.In brewage, the type height of the beer of generation depends on the standing length of enzyme and temperature.
Saccharification
The inventor now has surprisingly been found that the enzyme by using thermostability debranching factor to shorten or to eliminate in saccharification is standing.Therefore first aspect of the present invention relates to the method for preparing wort, comprises the steps:
A method that produces wort, comprises the steps:
A) cereal (grist) is mixed with water,
B) add debranching factor, wherein said debranching factor is at 64 ℃, pH5.0, and the time of 10 minutes has more than 60% enzymic activity,
C) time at 58-68 ℃ of standing 10-40 minute by described mixture,
D) time at 72-80 ℃ of standing 5-20 minute by described mixture, and
E) wort is separated with solid ingredient.
In one embodiment, temperature in 20 minutes from step c) be increased to steps d).
In another embodiment, step b)-d) within 30-70 minute, complete.
temperature curve (temperature profile)
The inventor finds to add thermostability debranching factor and has reduced the standing length of enzyme in saccharification, and/or has eliminated the standing amount of required enzyme, has reduced overall saccharification time thus considerablely.
In the present invention, the step c of the method for first aspect according to the present invention) temperature is preferably embodied as 58-68 ℃, and as 59-67 ℃, as 60-66 ℃, as 61-65 ℃, as 62-64 ℃, as 63-64 ℃, preferably temperature is 63-65 ℃ as 64 ℃.
Described mixture (it is the cereal mixing with water), at the standing 10-40 minute of the temperature that is selected from said temperature interval, as 11-39 minute, as 12-38 minute, as 13-37 minute, as 14-36 minute, as 15-35 minute, as 16-34 minute, as 17-33 minute, as 18-32 minute, as 19-31 minute, as 20-30 minute, as 21-29 minute, as 22-28 minute, as 23-27 minute, as 24-26 minute, as the time of 25-26 minute.In a preferred embodiment, the standing 15-35 minute of described mixture, in a preferred embodiment, the standing 20-30 minute of described mixture, in an even preferred embodiment, the standing 25-30 minute of described mixture, in a most preferred embodiment, the standing 15-30 minute of described mixture.
In the method aspect first according to the present invention, step c) to steps d) temperature preferably with 1 ℃/min of increase.Therefore in one embodiment, described temperature is within 20 minutes, as within 19 minutes, as within than 18 minutes, as within 17 minutes, as within 16 minutes, as 15 as within 14 minutes, as within 13 minutes, as within 12 minutes, as within 11 minutes, as within 10 minutes, as within 9 minutes, as within 8 minutes, as within 7 minutes, as within 6 minutes, as within 5 minutes, as within 4 minutes from step c) be increased to steps d).
In steps d) in, described mixture is at 72-80 ℃, as 73-79 ℃, as 74-78 ℃, as 75-78 ℃, as 76-78 ℃, preferably as time of the standing 5-20 of temperature minute of 77-78 ℃, as the time of 6-19 minute, as the time of 7-18 minute, as the time of 8-17 minute, as the time of 9-16 minute, as the time of 10-15 minute, as the time of 11-14 minute, as the time of 12-13 minute, as 10-20 minute, preferably time of the standing 10-15 of this temperature minute.
Described method for saccharifying can be divided into three parts: premashing (mashing in), is wherein filled in the cereal grinding container and mixes with water; Saccharification, the enzymatic degradation of starch that wherein endogenous and external source is supplied; With rear saccharification (mashing out), wherein promote temperature and mixture is transferred to lauter tub (lauter tun).
Therefore in a target of the present invention, the saccharification of method according to a first aspect of the invention, be step b)-d) within 30-70 minute, within 31-69 minute, within 32-67 minute, within 33-66 minute, within 34-65 minute, within 35-64 minute, within 36-63 minute, within 37-62 minute, within 38-61 minute, within 39-60 minute, within 40-59 minute, within 41-58 minute, within 42-57 minute, within 43-56 minute, within 44-55 minute, within 45-54 minute, within 46-53 minute, within 47-52 minute, within 48-51 minute, within 49-50 minute, complete.In an especially preferred embodiment, saccharification, within 70 minutes, more preferably, within 60 minutes, more preferably, within 50 minutes, even more preferably completes within 30 minutes within 40 minutes or more preferably.
Therefore in this context, saccharification time comprises the standing and all heating stepses of all enzymes, as the present invention produce wort method b in steps)-d) within this period of above-mentioned restriction, complete.
Aspect certain, according to the present invention, the method for first aspect completed within 30-70 minute.In other words, in steps a)-e) within 30-70 minute, as 40-60 minute, within 60 minutes, as within 50 minutes and as 45 minutes within complete.
Therefore according to a concrete aspect of the present invention, standing without 45-52 ℃.
In this context, the time consuming in method for saccharifying and total saccharification time and all saccharification step of completing the inventive method are step b for example)-d) required time is identical.Saccharification curve (mashing profile), saccharification, saccharifying, saccharification time and method for saccharifying are used interchangeably.
heat-staple
In this context, heat-staple enzyme is after 10 minutes, to have the enzyme of 60% above enzymic activity at 64 ℃ with pH level 5.
In one embodiment, at 64 ℃, pH5.0, in enzymic activity described in the time of 10 minutes, be more than 60%, as more than 61%, as more than 62%, as more than 63%, as more than 64%, as more than 65%, as more than 66%, as more than 67%, as more than 68%, as more than 69%, as more than 70%, as more than 71%, as more than 72%, as more than 73%, as more than 74%, as more than 75%, as more than 76%, as more than 77%, as more than 78%, as more than 79%, as more than 80%, as more than 81%, as more than 82%, as more than 83%, as more than 84%, as more than 85%, as more than 86%, as more than 87%, as more than 88%, as more than 89%, as more than 90%, as more than 91%, as more than 92%, as more than 93%, as more than 94%, as more than 95%, as more than 96%, as more than 97%, as more than 98%, as more than 99% and even 100%.
In specific embodiments of the present invention, described enzyme after 10 minutes, has minimum 80% activity at 64 ℃ and the horizontal 5.6-6.2 of pH in wine with dregs, as more than 85%, as more than 90% as more than 95%, or 100% activity even.The scope that should note the pH of wine with dregs in saccharifying is 5.6-6.2.More specifically, its scope is 5.6 to 5.8.
In another embodiment, described enzyme has at least 80% activity at the gelatinization point of barley germ after 10 minutes, as more than 85%, as more than 90% as 95% above or 100% activity even.
cereal
According to the present invention, described cereal can comprise anyly can comprise the starch that stem tuber, root, stem, leaf and seed obtain from any plant and plant part.Preferred described cereal comprise grain (grain) Tathagata from barley, wheat, rye, oat, corn, rice, buy the grain of sieve Chinese sorghum (milo), broomcorn millet (millet) and Chinese sorghum, and more preferably, at least 50% of the cereal of wort, as at least 60%, as at least 70%, as at least 80%, as at least 90% or even 100% (w/w) derives from grain.
According to the present invention, the cereal of first aspect comprises amyloid germination grain and/or auxiliary material.Described cereal can preferably comprise 0% to 100%, and preferably 20% to 100%, preferably 30% to 100%, more preferably 40% to 100%, even more preferably 50% to 100%, also more preferably 60% to 100%, as 70% to 100%, the germination grain as 80% to 100% or even most preferably 90% to 100%.In a specific embodiments, described cereal comprises at least 50% germination grain, malted barley for example, with about 50% auxiliary material, for example unmalted grain is as malted barley not, in another embodiment, described cereal comprises at least 60% germination grain, also in another embodiment, described cereal comprises at least 70% germination grain, in a specific embodiments, described cereal comprises at least 80% germination grain, even more preferably described cereal comprise at least 90% germination grain or even more preferably described cereal comprise at least 95% germination grain, and comprise 100% germination grain at cereal described in some preferred embodiment.100% germinates refers to " all germinateing " in this context.Therefore whole-malt wine with dregs is the wine with dregs that comprises 100% germination grain.Grain used according to the invention can be any grain, and is preferably and is selected from following germination grain: the barley of germination, wheat, rye, Chinese sorghum, broomcorn millet, corn and rice, and the barley most preferably germinateing.In one embodiment of the invention, use the starch of pre-gelatinization, Tathagata is from the pre-gelatinized starch of barley, wheat, rye, Chinese sorghum, broomcorn millet, corn and rice.
For the grain of the inventive method, can be modified by modification means, to the starch molecule in described grain by simple chain glycan molecule but not the molecular degree of branched chain sugar, the grain of modifying completely only contains simple chain starch molecule.Without the grain of modifying completely, need in multi-step, saccharification act on branch for debranching factor.Therefore the germination grain that described cereal comprises good modification in one aspect of the invention.
fructus Hordei Germinatus
Malting is the process that cereal grains (cereal grain) is sprouted, and it is conventionally next initial by described grain being dipped in water.This process can stop by the dry heat with warm air.Therefore term " Fructus Hordei Germinatus " is interpreted as the cereal grains of any germination, the grain of germination used according to the invention can be the grain of any germination, and be preferably the germination grain of the barley, wheat, rye, Chinese sorghum, broomcorn millet, corn and the rice that are selected from germination, and the barley most preferably germinateing.
The better quality of Fructus Hordei Germinatus can provide high-caliber extract to brewer, and produces easily by yeast-leavened wort.
Therefore in one embodiment of the invention, parent material is whole-malt wine with dregs, is the grain of 100% germination in this context.
auxiliary material
Auxiliary material is interpreted as to not the germinate part of grain of cereal.Described auxiliary material can comprise any rich starch plant material, and the grain for example not germinateing, as sugar and/or the syrup of barley, rice, corn, wheat, rye, Chinese sorghum and easily fermentation.The auxiliary material that is used for the method for first aspect can obtain from stem tuber, root, stem, leaf, beans, cereal and/or Wholegrain.Auxiliary material can comprise the material containing thick starch and/or purified starch and/or sugar, its derive from plant as wheat, rye, oat, corn, rice, buy sieve Chinese sorghum, broomcorn millet, Chinese sorghum, potato, sweet potato (sweet potato), cassava (cassava), cassava (tapioca), sago (sago), banana, sugar beet and/or sugarcane.Preferably, accessory package containing the grain not germinateing, for example, is selected from the unmalted grain of lower group: barley, wheat, rye, Chinese sorghum, broomcorn millet, corn and rice, and the barley most preferably not germinateing.
RDF
In one embodiment of the invention, heat-staple debranching factor of the present invention is made an addition to the method for generation of wort, wherein parent material is the cereal with at least 50% Fructus Hordei Germinatus, and the fermentable sugars in the wort producing is at least 75% fermentable sugars.
Therefore another aspect of the present invention relates to a kind of method, comprises following step:
A) cereal is mixed with water, wherein said cereal comprises at least 50% Fructus Hordei Germinatus,
B) add debranching factor, wherein said debranching factor is at 64 ℃, pH5.0, the time of 10 minutes has more than 60% enzymic activity, and by described mixture 58-68 ℃ standing,
C) temperature is increased to 72-80 ℃, and by described mixture 72-80 ℃ standing, and
It is d) wort is separated with solid ingredient,
Wherein in wort, the amount of fermentable sugars is more than 75% of soluble-carbohydrate.
fermentable sugars and not fermentable sugars
In saccharification working cycle, first by starch dissolution, then a part of starch molecule is hydrolyzed to low molecular weight sugar that not fermentable dextrin and brewer's yeast can ferment for ethanol as glucose, maltose and trisaccharide maltose.Not fermentable or limit dextrin fraction is to have the more sugar of high-polymerization degree (DP) than trisaccharide maltose, and it is DP4 or higher.In method for saccharifying process, dextrin is hydrolyzed to fermentable sugars by beta-amylase, and described beta-amylase is sequentially removed maltose unit from the non-reducing end of dextrin.Yet (1 → 6)-α branch point tolerates diastatic attack, and these branch points need be by debranching factor (limit dextrin) as Pullulanase, limit dextrinase and isoamylase hydrolysis.
DP is the polymerization degree, herein for the mean number of glucose unit in polysaccharide hydrolysis thing polymkeric substance.Therefore DP1-3 sugar is the fermentable sugars that can be glucose (DP1), maltose (DP2) or trisaccharide maltose (DP3) according to the present invention, and for example dextrin (DP4) is (or the non-fermentation) sugar that can not ferment.
RDF (fermentation practical extent) is calculated as RDF%=100* (OE%P-ER%)/OE%P, and the initial extract that OE means to represent with %P, and ER means the actual extracting thing %P being measured by densometer (Analytica EBC reference).
According to the present invention, in wort, the amount of fermentable sugars is the soluble-carbohydrate more than 75%, as at least 76%, as at least 77%, as at least 78%, as at least 79%, as at least 80%, as at least 81%, as at least 82%, as at least 83%, as at least 84%, as at least 85%, as at least 86%, as at least 87%, as at least 88%, as at least 89%, as at least 90%, as at least 91%, as at least 92%, as at least 93%, as at least 94%, as at least 95%, as at least 96%, as at least 97%, as at least 98%, as at least 99%, as at least 100%.
Syrup (brewery syrup) will be brewageed by some breweries, and for example high malt sugar is brewageed syrup and is added in wort kettle (wort kettle), and it can increase the amount of fermentable sugars.Yet, although can add and brewage syrup according to the present invention, for increase the amount of fermentable sugars or RDF this and nonessential.
In method for saccharifying process, starch is converted into comprise and can ferments and the wort of fermentable sugars not.According to the present invention, can shorten significantly method for saccharifying, and make brewery can use very simple saccharification curve and do not reduce the fermentability in wort.For example, no longer need to produce the saccharification step of 45-52 ℃ fermentable sugars amount wherein more than 75% wort of soluble-carbohydrate.
The inventor also finds that heat-staple debranching factor of the present invention can be used for producing the method for wort, and wherein in wort, the amount of fermentable sugars is more than 75% soluble-carbohydrate, and wherein said method comprises the steps:
A) cereal is mixed with water, wherein said cereal comprises at least 50% Fructus Hordei Germinatus,
B) add heat-staple debranching factor,
C) time at 58-68 ℃ of standing 10-40 minute by described mixture,
D) temperature is increased to 72-80 ℃,
E) time at 72-80 ℃ of standing 5-20 minute by described mixture, and
F) wort is separated with solid ingredient.
Wherein in wort the amount of fermentable sugars more than 75% of soluble-carbohydrate.
Importantly, method of the present invention relates to by reducing or eliminating the standing required time of enzyme and shortens saccharifying, and produces the wort that comprises high fermentable sugars amount.
Therefore, according to the present invention, shorten the fermentability that saccharification time does not reduce wort, that is to say, in wort, to compare with the amount of fermentable sugars be not high to the amount of fermentable sugars.
In a particularly preferred embodiment of the present invention, described method produces has the wort with respect to a large amount maltose of glucose.This is favourable, because it has stoped the osmotic pressure to yeast, and regulates ester to produce, and therefore regulates taste and the fragrant general picture of final beer.
Therefore another embodiment of the invention relates to method, maltose in wort wherein: the ratio of glucose is higher than 2:1, as higher than 2.5:1, as higher than 3:1, preferably higher than 3.2:1, preferably higher than 3.3:1, preferably higher than 3.4:1, preferably higher than 3.5:1, in an especially preferred embodiment, maltose in wort: the ratio of glucose is higher than 3.3:1.
In another embodiment, the present invention relates to the wort of preparing from 50-100% Fructus Hordei Germinatus and the starch-containing auxiliary material of 0-50%, wherein the amount of fermentable sugars is higher than 75% of soluble-carbohydrate, preferably higher than 80%, and maltose wherein: glucose ratio is higher than 2.5:1, preferably higher than 3.3:1.
Another embodiment relates to the wort being produced by the inventive method, and wherein the fermentable sugars in wort is soluble-carbohydrate at least 75%.
Debranching factor
In a preferred embodiment of the invention, external source provides Pullulanase (E.C.3.2.1.41) enzymic activity and it is present in wine with dregs.Can or afterwards Pullulanase be made an addition to wine with dregs composition, for example water and/or cereal before forming wine with dregs, in process.Another kind of enzyme can be added into wine with dregs, described enzyme is selected from lower group: α-amylase (E.C.3.2.1.1) and/or glucoamylase (E.C.3.2.1.3), isoamylase, proteolytic enzyme, cellulase, beta-glucanase, zytase, laccase, zytase, lipase, Phospholipid hydrolase, phytase, phytin (phytin) and esterase.
Yet the inventor finds method of the present invention surprisingly, and for example short saccharification can be only with debranching factor enforcement of the present invention.Therefore only debranching factor is added into wine with dregs in one aspect of the invention.
Debranching factor of the present invention comprises isoamylase and Pullulanase.Debranching factor, it attacks amylopectin (amylopectin), can be divided into two classes: be respectively isoamylase (E.C.3.2.1.68) and Pullulanase (E.C.3.2.1.41).α-1 in isoamylase hydrolysis amylopectin and β-limit dextrin, 6-D-glucoside branch key (branch linkage), and can not attack amylopectin (pullulan) because of isoamylase, and the limited action of α-limit dextrin is distinguished mutually with Pullulanase.
pullulanase (E.C.3.2.1.41)
Most preferably described Pullulanase derives from acidolysis amylopectin genus bacillus (Bacillusacidopullulyticus).The preferred Pullulanase being ready to use in the inventive method and/or composition is to have and the sequence at least 50% shown in SEQ ID NO:1, as at least 55%, as at least 60%, as at least 65%, as at least 66%, as at least 70%, as at least 75%, as at least 80%, as at least 85%, as at least 86%, as at least 87%, as at least 88%, as at least 89%, as at least 90%, as at least 91%, as at least 92%, as at least 93%, as at least 94%, as at least 95%, as at least 96%, as at least 97%, as at least 98%, as the Pullulanase of at least 99% or even 100% identical aminoacid sequence, particularly when using Needle program to use matrix: BLOSUM62, the initial point penalty of breach: 10.0, breach extends point penalty: 0.5, like this during non-notch identity matrix.
Pullulanase for method of the present invention is preferably from for example Pyrococcus (Pyrococcus) or bacillus (Bacillus) bacterial classification, as acidolysis amylopectin genus bacillus (for example, described in FEMSMicrobiol.Letters115:97-106) or Bacillus deramificans, or the Pullulanase of Nagano genus bacillus (Bacillus naganoencis).Described Pullulanase is also from the engineered Pullulanase of for example Bacillus strain.
Other Pullulanase that is preferred for method of the present invention comprises: Bacillus deramificans (United States Patent (USP) 5, 736, No. 375), or Pullulanase can derive from the Wo Shi fireball bacterium (Pyrococcus woesei) of describing in PCT/DK91/00219, or Pullulanase can derive from the flicker Bacillaceae bacterial classification Ven5 (Fervidobacterium sp.Ven5) describing in PCT/DK92/00079, or Pullulanase can derive from the fast-growing hot-bulb bacterium (Thermococcus celer) of describing in PCT/DK95/00097, or Pullulanase can derive from the Pyrodictium abyssei describing in PCT/DK95/00211, or Pullulanase can derive from the Fervidobacterium pennavorans describing in PCT/DK95/00095, or Pullulanase can derive from the Desulforococcus mucosus describing in PCT/DK95/00098.
Described Pullulanase is with 0.1 to 3PUN/g DM, as 0.2 to 2.9, as 0.3 to 2.8, as 0.3 to 2.7, as 0.3 to 2.6, as 0.3 to 2.5, as 0.3 to 2.4, as 0.3 to 2.3, as 0.3 to 2.2, as 0.3 to 2.1, as 0.3 to 2.0, as 0.3 to 1.9, as 0.3 to 1.8, as 0.3 to 1.7, dosage as 0.3 to 1.6 adds, most preferably Pullulanase be with as 0.3 to 1.5, preferably 0.4 to 1.4, more preferably 0.5 to 1.3, more preferably 0.6 to 1.2, more preferably 0.7 to 1.1, more preferably 0.8 to 1.0, more preferably 0.9 to 1.0 dosage adds.In a specific embodiments of the present invention, described enzyme is with 0.3PUN/g DM, as 0.4PUN/g DM, as 0.5PUN/g DM adds.In a particularly preferred embodiment of the present invention, enzyme dosage is not more than 1PUN/g DM.
isoamylase (E.C.3.2.1.68)
The another kind of enzyme of applying in the inventive method and/or composition can be another kind of debranching factor, as isoamylase (E.C.3.2.1.68).Isoamylase can be microorganism.α-1 in isoamylase hydrolysis amylopectin and β-limit dextrin, 6-D-glucoside branch key, and can not attack amylopectin (pullulan) because of isoamylase, and the limited action of α-limit dextrin is distinguished mutually with Pullulanase.Isoamylase can be well known to a person skilled in the art significant quantity interpolation.Isoamylase can add separately or add together with Pullulanase.
Optional enzyme
α-amylase (EC3.2.1.1)
α-amylase enzyme also can be external source, microorganism, and makes an addition to method of the present invention and/or composition.α-amylase can be bacillus α-amylase.Known bacillus α-amylase comprises the α-amylase of the bacterial strain that is derived from Bacillus licheniformis (B.licheniformis), bacillus amyloliquefaciens (Bacillus amyloliquefaciens) and bacstearothermophilus (B.stearothermophilus).In the context of the present invention, the bacillus α-amylase containing is that WO99/19467 page 3 the 18th walks to defined α-amylase in the 6th page of the 27th row.Preferred α-amylase has aminoacid sequence, and in itself and WO99/19467, SEQ ID NO:4 has at least 90%, as at least 92%, and at least 95%, at least 96%, at least 97%, at least 98%, or at least 99% identity particularly.Most preferred product maltogenic alpha-amylase enzyme is disclosed SEQ ID NO:9 or comprise its variant in WO99/43794.The variant of containing and heterozygote are described in WO96/23874, WO97/41213 and WO99/19467.What contain especially is the α-amylase (E.C.3.2.1.1) from bacstearothermophilus, and it has the disclosed aminoacid sequence of SEQID NO:3 and sudden change: I181*+G182*+N193F in WO99/19467.Bacillus α-amylase can be with 1.0-1000NU/kg DS, preferred 2.0-500NU/kg DS, and preferably the amount of 10-200NU/kg DS adds.The specific α-amylase of another kind that method of the present invention is used can be any fungal alpha-amylase.For example, be derived from the α-amylase of Aspergillus (Aspergillus) bacterial classification, and preferably from the bacterial strain of aspergillus niger (Aspergillus niger).Contain especially be with WO2002/038787 in the aminoacid sequence shown in SEQ IDNO:1 show high identity, at least 50%, at least 55%, at least 60%, at least 65%, at least 70%, at least 75%, at least 80%, at least 85% or the fungal alpha-amylase of even at least 90% identity.Fungal alpha-amylase can be with 1-1000AFAU/kg DS, preferred 2-500AFAU/kg DS, and preferably the amount of 20-100AFAU/kg DS adds.
glucoamylase (E.C.3.2.1.3)
The glucoamylase can be used in the inventive method can derive from microorganism or plant.Preferably the glucoamylase of originated from fungus is as Aspergillus glucoamylase, and particularly (Boel etc. (1984), EMBO is (5) J.3, p.1097-1102) for aspergillus niger G1 or G2 glucoamylase.Preferred its variant also, as
wO92/00381with
wO00/04136in disclosed; Aspergillus awamori (A.awamori) glucoamylase (
wO84/02921), aspergillus oryzae (Agric.Biol.Chem. (1991), 55 (4), p.941-949) or its variant or fragment.Preferred glucoamylase comprises the glucoamylase that derives from aspergillus niger, as with
wO00/04136described in aminoacid sequence have 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85% or glucoamylase and the SEQ ID NO:13 of even 90% homology.Also preferably derive from the glucoamylase of aspergillus oryzae, as with WO00/04136SEQ ID NO:2 in listed aminoacid sequence have 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85% or the glucoamylase of even 90% homology.Other preferred glucoamylase comprises Talaromyces (Talaromyces) glucoamylase, particularly derive from Ai Mosen ankle joint bacterium (Talaromyces emersonii) (
wO99/28448), Talaromyces leycettanus (United States Patent (USP) Re.32, No. 153), Du Pont ankle joint bacterium (Talaromycesduponti), thermophilic ankle joint bacterium (Talaromyces thermophilus) (United States Patent (USP) 4,587, No. 215) glucoamylase, the glucoamylase of fusobacterium (Clostridium), particularly pyrolysis clostridium amylobacter (C.thermoamylolyticum) (
eP135,138) and hot sulfurization hydrogen clostridium (C.thermohydrosulfuricum) (
wO86/01831) glucoamylase.The commercially available composition that comprises glucoamylase comprises AMG200L; AMG300L; SAN
tMsUPER, SAN EXTRA L and AMG
tMe (from Novozymes A/S); OPTIDEX
tM300 (from Genencor Int.); AMIGASE
tMand AMIGASE
tMpLUS (from DSM); G-ZYME
tMg900, G-ZYME
tMand G990ZR (from Genencor Int.).Glucoamylase activity can be with the amount of 0.1 to 100000AGU/kg DS, preferably with the amount of 1 to 10000AGU/kg DS, more preferably with the amount of 10 to 1000AGU/kg DS, as the amount of 100 to 500AGU/kg DS is used.Glucoamylase can, with the amount of 0.001mg to 100000mgEP/kg DS, preferably, with the amount of 0.01mg to 10000mg EP/kg DS, more preferably, with the amount of 0.1mg to 1000mg EP/kg DS, most preferably add with the amount of 1mg to 100mg EP/kg DS.
proteolytic enzyme
Suitable proteolytic enzyme comprises microbial protease, as fungus and bacterium proteolytic enzyme.Preferred proteolytic enzyme is aspartic protease, that is, and and the proteolytic enzyme that the ability by protein hydrolysate under the acidic conditions below pH7 characterizes.
Proteolytic enzyme is responsible for, in wine with dregs, the high-molecular-weight protein of total length is degraded into low molecular weight protein (LMWP).Low molecular weight protein (LMWP) is essential for the nutrition of yeast, and high-molecular-weight protein guarantees froth stability.Therefore technician knows proteolytic enzyme and should add with equal amount, simultaneously for yeast provides slowly (amble) total free aminoacids and retains enough high-molecular-weight proteins so that foam stabilization.Can be with 0.1-1000AU/kg DS, preferred 1-100AU/kg DS and the most preferably amount of 5-25AU/kg DS add proteolytic enzyme.
cellulase (E.C.3.2.1.4)
Cellulase can be microbe-derived, as is derived from the bacterial strain of filamentous fungus (for example, Aspergillus, Trichoderma (Trichoderma), Humicola (Humicola), fusarium (Fusarium)).The specific examples of cellulase comprises from the obtainable endoglucanase of Humicola insolens (H.insolens) (endoglucanase i), its also in WO91/17244 the aminoacid sequence of Figure 14 define, and the 43kD Humicola insolens endoglucanase described in WO91/17243.
The special fiber element enzyme using in method of the present invention can be endoglucanase, as inscribe-Isosorbide-5-Nitrae-beta-glucanase.What contain especially is beta-glucanase and the homologous sequence shown in SEQ ID NO:2 in WO2003/062409.Operable commercially available cellulase prepared product comprises
with
(can from Novozymes A/S obtain), LAMINEXTM and
cP (can from Genencor Int. obtain) and
7069W (can be from
germany obtains).Can be with 1.0-10000BGU/kg DS, preferred 10-5000BGU/kg DS, preferred 50-1000BGU/kg DS and the most preferably amount of 100-500BGU/kg DS add beta-glucanase.
The separation of wort
From wine with dregs, obtain wort and generally include wort as separatedly in vinasse with solid ingredient, form insoluble grain and the shell material of cereal part.Can be by hot water flow through described vinasse with rinse or spray any remaining extract from cereal.
After the vinasse separation of wort of the cereal of the embodiment from any aforementioned first aspect, in statu quo (as it is) used wort to be dewatered to provide concentrated and/or dry wort.Concentrated and/or dry wort can be used as brewageing extract, as malt extract food flavouring, for non-alcohol malt beverage, malt vinegar, breakfast cereal, for confectioner etc.
The generation of beer
In a preferred embodiment, fermenting wort is to produce alcoholic beverage, be preferably beer and for example like youngster's beer (ale), strong love youngster's beer (strong ale), Bitter (bitter), winter beer (stout), alms bowl that is stout (porter) thoroughly, old storage beer (lager), Export beer, malt liquor (malt liquor), barley wine, low malt beer (happoushu), high alcohol beer (high-alcohol beer), low alcohol beer (low-alcohol beer), low-heat beer (low-calorie beer) or light beer (light beer).The fermentation of wort can comprise that this pulp bales can be the yeast reclaiming containing fresh yeast (previously not for yeast of the present invention) or described yeast to dropping into (pitch with) yeast slurry in wort.The yeast of application can be any yeast that is suitable for brewage, particularly be selected from the yeast of yeast belong bacterial classification (Saccharomyces spp.), as yeast saccharomyces cerevisiae (S.cerevisiae) and saccharomyces uvarum (S.uvarum), it comprises the variant of the natural or artificial generation of these organisms.Fermentation process for generation of the wort of beer is that those skilled in the art is known.
Method of the present invention can comprise in fermenting wort and adds silica hydrogel (silicahydrogel), to increase the colloid stability (colloidal stability) of beer.These methods can also comprise in the wort of fermentation and add diatomite (kieselguhr) and filter so that beer vivid (bright).
According to an aspect of the present invention, provide by second or the beer that produces of the wort of the third aspect, as by the beer that attenuate is produced to produce beer.Beer can be the beer of any type, for example, like youngster's beer, strong love youngster's beer, winter beer, alms bowl that stout, old storage beer, Bitter, Export beer, malt liquor, low malt beer, high alcohol beer, low alcohol beer, low-heat beer or light beer thoroughly.
Embodiment
pullulanase active (PUN):
Yi Ge Pullulanase unit (PUN) is defined as in pH5 citrate buffer, forms the enzyme amount of 1 micromole's glucose at 50 ℃ of energy from amylopectin substrate per minute.
Pullulanase sample is incubation together with substrate (red amylopectin).α-1 in inscribe Pullulanase hydrolysis amylopectin, 6-glycosidic link, discharges degradation of substrates product.Use ethanol that undegradable substrate is precipitated.At 510nm, with spectrophotometry, discharge the amount of color, the inscribe-Pullulanase activity in itself and sample is proportional.The color of sample is formed with the color being produced by the active known sample of Pullulanase and forms and compare.
Pullulanase is amylopectin 6-dextran-lytic enzyme, and enzyme classification number is E.C.3.2.1.41.
Reaction conditions
Temperature 50 C ± 2 ℃
pH 5.0
The red amylopectin of concentration of substrate 0.67%
Enzyme concn 0.04-0.13PUN/mL
30 minutes reaction times
Wavelength 510nm
Reagent/substrate
Klorvess Liquid 0.5M
Amylopectin substrate 2%.Supplier is Megazyme, Australia
Citrate buffer 0.05M pH5.0
The citrate buffer 0.05M pH5.0 that comprises 25mM halfcystine
Ethanol 99.8%
The Pullulanase standard substance prepared product of 904PUN/g is diluted in citrate buffer 0.05M to the standard substance diluent series of 0.05-0.20PUN/ml.
Blank citrate buffer 0.05M
Enzyme sample being diluted in citrate buffer 0.05M active is 0.06-0.20PUN/ml, and with standard substance diluent series of comparisons.
Embodiment 1:
In this embodiment, at 64 ℃ after 15 minutes and 30 minutes and the sugar cloth of having studied the saccharifying shortening at 78 ℃ after 15 minutes.Carried out from the heating of 64 ℃ to 78 ℃ with 1 ℃/min, therefore in this case, within 14 minutes, heated wine with dregs.In this case total saccharification time for 64 ℃ standing 30 minutes+with within 14 minutes, be heated to 78 ℃+78 ℃ standing 15 minutes, always saccharification time is 59 minutes.
Use the 100% good Fructus Hordei Germinatus of modifying, and the enzyme using is the Pullulanase with SEQ ID NO:1.
Pullulanase for this embodiment is the Pullulanase with SEQ ID NO:1, and it adds with the concentration of indicating below t=0 minute (saccharification starts).
Saccharification distribution and sample collection
Enzyme dosage:
Cup | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 |
PUN/g DM | - | - | - | 1.0 | 1.0 | 1.0 | 0.5 | 0.5 | 0.5 | 0.1 | 0.1 | 0.1 |
The total sugar content of table 2. wort sample
Total reducing sugar (g/L) | Enzyme (PUN/g DM) |
130.10 | Blank |
130.47 | 1PUN |
131.18 | 0.5PUN |
130.71 | 0.1PUN |
In all samples, the total amount of fermentable sugars is identical (78 ℃/45 minutes) (table 2)
Table 3 show sugar cloth that very short saccharification distributes can by using dosage be 0.5 and the Pullulanase of 1PUN/gdm strengthen.Obtained the obvious dose response of Pullulanase, it can be used as instrument and causes final weakening (which can be used as a tool to stir the final attenuation).
Fermentable sugars fraction in the wort sample of collecting after saccharifying stops has been improved 8.6% (1PUN/g DM) and 4.9% (0.5PUN/g DM), last hurdle of table 3.
Table 3. is fermentable sugars and fermentable sugars not in short method for saccharifying
Abbreviation:
DP: the polymerization degree, DP1: glucose, DP2: maltose, DP3: trisaccharide maltose, DP4: fermentable sugars not, as dextrin.
PUN: Pullulanase unit
Blank: not add enzyme
Described value represents with the per-cent DP of total DP of soluble-carbohydrate.
Table 3 shows the sugar cloth of very short method for saccharifying.Pullulanase is made an addition to the mixture of cereal and water, wherein said mixture has the temperature of 64 ℃, by standing 30 minutes of mixture, and sampling in 15 and 30 minutes.With 1 ℃/min, solution is heated to 78 ℃, by mixture 78 ℃ standing 15 minutes, and after 15 minutes sampling.
Table 3 shows when with 1 with during 0.5PUN interpolation Pullulanase, and at 64 ℃ after 15 minutes, at 64 ℃, the amount of the fermentable sugars after 15 minutes is at least 80% after 30 minutes and at 78 ℃.Therefore it has shown that adding enzyme of the present invention has reduced saccharification time surprisingly, and produces the wort for example, with high fermentable sugars (DP1-3) amount.
Claims (9)
1. a method that produces wort, comprises the steps:
A) cereal is mixed with water,
B) add debranching factor, wherein said debranching factor is at 64 ℃, pH5.0, and the time of 10 minutes has more than 60% enzymic activity,
C) time at 58-68 ℃ of standing 10-40 minute by described mixture,
D) time at 72-80 ℃ of standing 5-20 minute by described mixture, and
E) wort is separated with solid ingredient;
Wherein, saccharification completed within 70 minutes, and described debranching factor is Pullulanase, derives from bacillus, and described Pullulanase has the aminoacid sequence identical with SEQ ID NO1 at least 99% or 100%.
According to the process of claim 1 wherein temperature within 20 minutes from step c) be increased to steps d).
3. according to the method for aforementioned any one claim, wherein said cereal comprises at least 50% Fructus Hordei Germinatus.
4. according to the method for aforementioned any one claim, wherein in wort the amount of fermentable sugars more than 75% of soluble-carbohydrate.
5. according to the method for aforementioned any one claim, step b wherein)-d) within 30-70 minute, complete.
6. according to the method for aforementioned any one claim, wherein said Fructus Hordei Germinatus is barley germ.
7. according to the process of claim 1 wherein that the amount of fermentable sugars in described wort is higher than 80% of soluble-carbohydrate.
8. according to the method for aforementioned any one claim, maltose in wherein said wort: the ratio of glucose is higher than 2:1.
9. produce a method for beer, comprise and producing according to the wort of aforementioned any one claim, and this wort that ferments.
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EP08166635.6 | 2008-10-15 | ||
EP08166635 | 2008-10-15 | ||
PCT/EP2009/063098 WO2010043538A2 (en) | 2008-10-15 | 2009-10-08 | Brewing process |
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US (1) | US20110195149A1 (en) |
EP (1) | EP2346978A2 (en) |
CN (1) | CN102186965B (en) |
BR (1) | BRPI0920179A2 (en) |
RU (1) | RU2524118C2 (en) |
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KR20120115274A (en) * | 2009-11-23 | 2012-10-17 | 다우 글로벌 테크놀로지스 엘엘씨 | Toughened epoxy resin formulations |
EP2847316A1 (en) | 2012-05-11 | 2015-03-18 | Novozymes A/S | A brewing method |
ES2705075T3 (en) * | 2015-04-21 | 2019-03-21 | Univ Berlin Tech | Sports drinks and procedures for their production |
CN105510186B (en) * | 2016-01-28 | 2018-01-23 | 青岛啤酒股份有限公司 | Method for quickly judging malt fermenting property in Process of Beer Brewing |
AU2017365642B2 (en) | 2016-11-28 | 2022-08-18 | Société des Produits Nestlé S.A. | Method of preparing cereal extract |
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RU2524118C2 (en) | 2014-07-27 |
RU2011119521A (en) | 2012-11-27 |
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